Guide device with locking device

Abstract

A guide device of a vehicle having a first guide paired with a fixture, a second guide that is paired with a structure of the vehicle and forms a guide track along which the fixture is movably guided in opposite track directions. A locking device has a first lock paired with the fixture and second lock paired with the structure of an X-locking mechanism which is used to releasably lock a movement along the track directions. A primary lock is paired with the fixture and a secondary lock is paired with the structure of a Z-locking mechanism via which a movement in a third direction for a removal out of the second guide can be releasably locked. The locking device has at least a first actuator and a second actuator via which the X-locking mechanism and/or the Z-locking mechanism can be moved between a locking position and a release position.

Claims

1. A guide device for a vehicle, the guide device comprising: a first guide, the first guide being a part of a fixture; a second guide that forms a guide track along which the fixture is movably guided in first and second directions that oppose one another; and a locking device comprising: an X-movement direction locking mechanism via which a movement of the fixture along the guide track in the first and second directions is releasably locked; a Z-movement direction locking mechanism via which a movement of the fixture in a third direction for removal of the fixture from the second guide is releasably locked, the third direction being different from the first and second directions; and a first actuator and a second actuator, wherein the X-movement direction locking mechanism has a first lock, wherein the Z-movement direction locking mechanism has a primary lock, the primary lock being a pivotable latch, wherein the X-movement direction locking mechanism is movable from a locking position into a release position upon an actuation of the first actuator or an actuation of the second actuator, wherein the Z-movement direction locking mechanism is movable from a locking position into a release position upon the actuation of the first actuator and the actuation of the second actuator, wherein the first lock is engaged with a first control surface, wherein the primary lock is engaged with a second control surface, and wherein the first control surface and the second control surface are each movable between the locking position and the release position of each of the X-movement direction locking mechanism and the Z-movement direction locking mechanism, wherein the first control surface and the second control surface are parts of a control element, the control element being movable between a release position, a first locking position, and a second locking position, and wherein the first control surface and the second control surface are each a part of a respective gate of the control element.

2. The guide device according to claim 1, wherein the guide track of the second guide is composed of at least one guide rail.

3. The guide device according to claim 1, wherein the control element is displaced by a certain amount upon the actuation of one of the first actuator or the second actuator, and wherein the control element is additionally displaced by a certain amount upon a subsequent actuation of the other of the first actuator or the second actuator.

4. The guide device according to claim 1, wherein the control element is securable in at least the release position.

5. The guide device according to claim 1, wherein the guide track of the second guide comprises two guide rails, and the first guide comprises at least one slide element that interacts with each of the two guide rails.

6. The guide device according to claim 1, wherein the first lock is composed of a latch that is pivotably movable.

7. The guide device according to claim 1, wherein the first lock is formed as a pivotable latch having a lever arm, wherein the second guide has slots and wherein the lever arm engages with one of the slots of the second guide when the X-movement direction locking mechanism is in the locking position.

8. The guide device according to claim 1, wherein a lever arm of the pivotable latch of the Z-movement direction locking mechanism engages with an overhang of the second guide when the Z-movement direction locking mechanism is in the locking position.

9. The guide device according to claim 1, further comprising a backlash compensation device, the backlash compensation device being a part of the fixture, wherein the backlash compensation device has spring-loaded anchors that each engage with a respective overhang of the second guide.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:

(2) FIG. 1 is a perspective representation of a fixture, wherein the parts on the vehicle structure side of the guide device and of the locking device are not shown,

(3) FIG. 2 is a top view of the fixture from FIG. 1,

(4) FIG. 3 is a top view of the fixture from FIG. 1, wherein one handle is actuated,

(5) FIG. 4 is a top view of the fixture from FIG. 1, wherein both handles are actuated,

(6) FIG. 5 is a sectional representation along section line J-J in FIG. 2,

(7) FIG. 6 is a sectional representation along section line A-A in FIG. 2,

(8) FIG. 7 is a sectional representation along section line B-B in FIG. 2,

(9) FIG. 8 is a sectional representation along section line C-C in FIG. 2,

(10) FIG. 9 is a sectional representation along section line L-L in FIG. 4,

(11) FIG. 10 is a sectional representation along section line G-G in FIG. 4,

(12) FIG. 11 is a sectional representation along section line H-H in FIG. 4,

(13) FIG. 12 is a sectional representation along section line I-I in FIG. 4,

(14) FIG. 13 is a sectional representation along section line K-K in FIG. 3,

(15) FIG. 14 is a sectional representation along section line D-D in FIG. 3,

(16) FIG. 15 is a sectional representation along section line E-E in FIG. 3, and

(17) FIG. 16 is a sectional representation along section line F-F in FIG. 3.

DETAILED DESCRIPTION

(18) The guide device as a whole is labeled with reference symbol 10 in the figures.

(19) In FIG. 1, a fixture 11 of a vehicle is shown with the guide device 10 according to the invention. For the sake of clarity, the fixture is shown only partially. Second guide 12 of the guide device 10 is represented only by a dotted-and-dashed line. The second guide 12 interacts with first guide 14 of the fixture 11.

(20) The first guide is composed of projections 15 in the present exemplary embodiment. The projections 15 are held on a base element 17 of the fixture 11 and protrude in direction x.sub.2 with respect to the base element 17. The projections 15 can be brought into engagement with guide rails 16a and 16b of the second guide 12. The guide rails 16a and 16b run on a structure 18 of the vehicle, in the present exemplary embodiment on the floor of the vehicle, in a straight line in the direction x.sub.1 or x.sub.2.

(21) By means of the projections 15 and the guide rails 16a and 16b, the fixture 11 is movably guided in the directions x.sub.1 and x.sub.2. A region 23 of the projection 15 interacts, as per FIG. 6, with the rail 16a in such a manner that movement in the direction z.sub.2 and in the directions y.sub.1 and y.sub.2 is not possible, but such that movement in the directions x.sub.1 and x.sub.2 as well as in the direction z.sub.1 is indeed possible.

(22) The guide device 10 comprises locking devices 20a and 20b on both sides 13a and 13b of the base element 17. The locking device 20a is described in the figures. Even though the locking device 20b is not described here, it is in fact designed in the same manner as the locking device 20a.

(23) Each of the locking devices 20a and 20b comprises an X-locking mechanism 21, with which a movement in the directions x.sub.1 and x.sub.2 along the guide rails 16a and 16b formed by the second guide can be locked, as well as a Z-locking mechanism 22, with which a movement in the direction z.sub.1 can be locked, so that the fixture 11 cannot be removed from the guide rails 16a and 16b. When the X-locking mechanism 21 and the Z-locking mechanism 22 of the locking devices 20a and 20b are in the locked position (see FIG. 2 and FIGS. 5 to 8), the fixture 11 cannot be moved in any spatial direction.

(24) If the X-locking mechanism 21 is in the release position, the fixture 11 can be moved in the directions x.sub.1 and x.sub.2.

(25) If the Z-locking mechanism 22 is relocated into the release position, the fixture 11 has an additional degree of freedom in direction z.sub.1. The fixture 11 can be removed from the guide rails 16a and 16b in direction z.sub.1 and be put back into the guide rails 16a and 16b in direction z.sub.2.

(26) In FIG. 1, latches 24a and 24b of the Z-locking mechanism 22 of the locking device 20a can be seen that are supported on the base element 17 so as to be pivotable about a pivot axis a.sub.1. The latch 24a is implemented as a two-armed lever (see FIG. 6)corresponding to the latch 24b, which is designed in the same mannerand comprises a lever arm 25 with a hooked end region 27 as well as a lever arm 26. The end region 27 of the lever arm 25 engages beneath an overhang 28, which extends in the x-direction, of the second guide 12, thereby preventing movement in direction z.sub.1. Movement in the direction x.sub.1 and x.sub.2 is not prevented by the engagement. An end region 19 of the second lever arm 26 is in engagement with a control surface 52 of a gate 29a of a control element 30a. By means of the control element 30a, the latch 24a can be moved into engagement with the overhang 28 or out of engagement with the overhang 28. The latch 24b is in engagement with a gate 29b of the control element 30a in a comparable manner to the latch 24a.

(27) In the same manner as the latches 24a and 24b of the locking device 20a, the latches 24a and 24b of the locking device 20b are in engagement with gates 29a and 29b of a control element 30b, and can be moved into engagement or out of engagement with the guide rail 16b or the overhang 28 of the secondary lock.

(28) In FIG. 7, a backlash compensation device 31 is shown on the side 13a of the base element 17. Even though it is not shown, a backlash compensation device 31, which is designed in the same manner as the device shown, is likewise present on the side 13b. The backlash compensation device 31 comprises a cylindrical body 32, which is provided with anchor elements 33a and 33b in an end region. The anchor element 33a interacts with the overhang 28, and the anchor element 33b interacts with an overhang 34 of the second guide, by which means a backlash compensation is accomplished in the Z-direction.

(29) At an upper region, the body 32 is held on the base element 17 about a pivot axis a.sub.6. Springs load the anchor elements 33a and 33b in direction z.sub.1 against the overhangs 28 and 34, thereby preventing backlash in the Z-direction. The anchor elements 33a and 33b can be moved into engagement or out of engagement with the overhangs 28 and 34 as a function of the position of the control elements 30a and 30b.

(30) A latch 35 of the X-locking mechanism 21 implemented as a two-armed lever can be seen in FIG. 1 and FIG. 8. The latch 35 has a lever arm 36 whose end region 37 is designed such that it can be brought into engagement with at least one slot 38 of a multiplicity of slots 38 that are incorporated in the guide rail 16a and extend transversely to the direction of extent x.sub.1, x.sub.2 of the guide rail 16a. In this way, a movement of the fixture 11 in the directions x.sub.1 and x.sub.2 can be prevented with the latch 35. As per FIG. 8, the end region 37 of the latch 35 is in engagement with two slots 38.

(31) An end region 39 of a lever arm 40 of the latch 35 is in engagement with a control surface 41 of the control element 30a (the control surface 41 is not visible in FIG. 8see FIG. 5, for example). The latch 35 is spring-loaded such that it automatically moves into the locking position.

(32) As per FIG. 5, end regions 19 of the two latches 24a and 24b are located in a region 51 of a control surface 52 formed by the respective gate 29a and 29b. The end region 39 of the latch 35 is arranged in a region 53 of the control surface 41. In this position of the control element 30a, the latch 35 is moved by the gate 29a into the locking position as per FIGS. 5 and 8. The latches 24a and 24b are in engagement with the overhang 28. The anchor elements 33a and 33b of the backlash compensation device 31 engage beneath the overhangs 28 and 34 (see FIG. 7).

(33) According to FIG. 1, the locking device 20a has an actuating device 42, by means of which the X-locking mechanism 21 can be relocated separately or together with the Z-locking mechanism 22 from a locking position into a release position. The actuating device 42 comprises a handle 43, which is held on the base element 17 such that it can pivot about an axis a.sub.4, as well as a handle 44, which is likewise held on the base element 17 such that it can pivot about an axis a.sub.5.

(34) By means of a transmission device 45, which comprises a lever 46 that can pivot in a clockwise direction u.sub.1 and a counterclockwise direction u.sub.2 about an axis a.sub.3 as well as an actuating rod 47, the control elements 30a and 30b can be shifted in direction x.sub.2 upon actuation of the handle 43.

(35) The handle 44 is connected to a transmission device 48 so that the control elements 30a and 30b are moved in direction x.sub.2 upon actuation of the handle 44. The transmission device 48 comprises control link 49 and an actuating rod 50 that interacts with the control elements 30a and 30b.

(36) If the handle 43 is now actuated as per FIG. 1, the lever 46 pivots about the pivot axis a.sub.3 and shifts the actuating rod 47 in direction x.sub.2. The actuating rod 47 is connected to both control elements 30a and 30b in such a manner that they are likewise moved in direction x.sub.2.

(37) If, alternatively, the handle 44 is actuated, this causesthrough the control link 49the actuating rod 50 to likewise be shifted in direction x.sub.2. During this process, the control elements 30a and 30b are also shifted in direction x.sub.2 (see FIG. 13).

(38) On account of the shifting of the control elements 30a and 30b in the direction x.sub.2, the end regions 19 of the latches 24a and 24b are shifted relative to the gates 29a and 29b into the region 54. The Z-position of the control surface 52 has not changed during this process, however, so that the latches 24a and 24b are not pivoted, which is to say they remain in engagement with the overhang 28.

(39) The end region 39 of the latch 35, in contrast, is moved relative to the control element 30a or 30b onto a region 55 of the respective control element 30a or 30b (see FIG. 13), in which the control surface 41 is elevated by an amount ?Z in the direction z.sub.1 in relation to the region 53. The end region 39 of the latch 35 is therefore likewise shifted by the amount ?Z in the direction z.sub.1, during which process the latch 35 has moved out of engagement with the second lock, in this case the slot 38, into the release position.

(40) If one of the two handles 43 or 44 is first actuated and then the other handle, the control elements 30a and 30b are then shifted. During this movement, the end regions 19 are moved into contact with a region 56 of the control surface 52, in which the control surface 52 is elevated by ?Z in the direction z.sub.2 in relation to the region 51 (see FIG. 9). In this process, the latches 24a and 24b are moved out of engagement with the overhang 28. The end region 39 is shifted into the region 57 on the control surface 41. Its Z-position does not change during this movement of the control elements 30a and 30b, which is to say the latch 35 remains out of engagement with the slots 38. The fixture 11 can then be removed from the second guide.

(41) During this movement of the latches 24a and 24b into the release position, feeler elements 58 of the locking devices 20a and 20b are moved out of recesses 59 of the base element 17. If the fixture 11 is placed back into the second guide 12, then the feeler elements 58 come into contact with the second guide 12 and in doing so move the latches 24a and 24bthrough the control elements 30a and 30binto the position as per FIG. 13 in which the latches 24a and 24b are again in engagement with the overhang 28.

(42) If the handles 43 and 44 are moved back into the rest position, a shifting of the control elements 30a and 30b into the position as per FIG. 5, in which the latch 35 is also moved back into engagement with the guide rail 16a or 16b, follows.

(43) The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.